; NOTE: Assertions have been autogenerated by utils/update_llc_test_checks.py UTC_ARGS: --version 2 ; RUN: llc -amdgpu-scalarize-global-loads=false -mtriple=r600 -mcpu=redwood < %s | FileCheck -check-prefix=R600 %s ; Run with unsafe-fp-math to make sure nothing tries to turn this into 1 / rsqrt(x) define amdgpu_kernel void @v_safe_fsqrt_f32(ptr addrspace(1) %out, ptr addrspace(1) %in) { ; R600-LABEL: v_safe_fsqrt_f32: ; R600: ; %bb.0: ; R600-NEXT: ALU 0, @8, KC0[CB0:0-32], KC1[] ; R600-NEXT: TEX 0 @6 ; R600-NEXT: ALU 3, @9, KC0[CB0:0-32], KC1[] ; R600-NEXT: MEM_RAT_CACHELESS STORE_RAW T0.X, T1.X, 1 ; R600-NEXT: CF_END ; R600-NEXT: PAD ; R600-NEXT: Fetch clause starting at 6: ; R600-NEXT: VTX_READ_32 T0.X, T0.X, 0, #1 ; R600-NEXT: ALU clause starting at 8: ; R600-NEXT: MOV * T0.X, KC0[2].Z, ; R600-NEXT: ALU clause starting at 9: ; R600-NEXT: RECIPSQRT_IEEE * T0.X, T0.X, ; R600-NEXT: LSHR T1.X, KC0[2].Y, literal.x, ; R600-NEXT: RECIP_IEEE * T0.X, PS, ; R600-NEXT: 2(2.802597e-45), 0(0.000000e+00) %r0 = load float, ptr addrspace(1) %in %r1 = call float @llvm.sqrt.f32(float %r0) store float %r1, ptr addrspace(1) %out ret void } define amdgpu_kernel void @v_unsafe_fsqrt_f32(ptr addrspace(1) %out, ptr addrspace(1) %in) #1 { ; R600-LABEL: v_unsafe_fsqrt_f32: ; R600: ; %bb.0: ; R600-NEXT: ALU 0, @8, KC0[CB0:0-32], KC1[] ; R600-NEXT: TEX 0 @6 ; R600-NEXT: ALU 3, @9, KC0[CB0:0-32], KC1[] ; R600-NEXT: MEM_RAT_CACHELESS STORE_RAW T0.X, T1.X, 1 ; R600-NEXT: CF_END ; R600-NEXT: PAD ; R600-NEXT: Fetch clause starting at 6: ; R600-NEXT: VTX_READ_32 T0.X, T0.X, 0, #1 ; R600-NEXT: ALU clause starting at 8: ; R600-NEXT: MOV * T0.X, KC0[2].Z, ; R600-NEXT: ALU clause starting at 9: ; R600-NEXT: RECIPSQRT_IEEE * T0.X, T0.X, ; R600-NEXT: LSHR T1.X, KC0[2].Y, literal.x, ; R600-NEXT: RECIP_IEEE * T0.X, PS, ; R600-NEXT: 2(2.802597e-45), 0(0.000000e+00) %r0 = load float, ptr addrspace(1) %in %r1 = call float @llvm.sqrt.f32(float %r0) store float %r1, ptr addrspace(1) %out ret void } define amdgpu_kernel void @s_sqrt_f32(ptr addrspace(1) %out, float %in) { ; R600-LABEL: s_sqrt_f32: ; R600: ; %bb.0: ; %entry ; R600-NEXT: ALU 3, @4, KC0[CB0:0-32], KC1[] ; R600-NEXT: MEM_RAT_CACHELESS STORE_RAW T0.X, T1.X, 1 ; R600-NEXT: CF_END ; R600-NEXT: PAD ; R600-NEXT: ALU clause starting at 4: ; R600-NEXT: RECIPSQRT_IEEE * T0.X, KC0[2].Z, ; R600-NEXT: LSHR T1.X, KC0[2].Y, literal.x, ; R600-NEXT: RECIP_IEEE * T0.X, PS, ; R600-NEXT: 2(2.802597e-45), 0(0.000000e+00) entry: %fdiv = call float @llvm.sqrt.f32(float %in) store float %fdiv, ptr addrspace(1) %out ret void } define amdgpu_kernel void @s_sqrt_v2f32(ptr addrspace(1) %out, <2 x float> %in) { ; R600-LABEL: s_sqrt_v2f32: ; R600: ; %bb.0: ; %entry ; R600-NEXT: ALU 5, @4, KC0[CB0:0-32], KC1[] ; R600-NEXT: MEM_RAT_CACHELESS STORE_RAW T0.XY, T1.X, 1 ; R600-NEXT: CF_END ; R600-NEXT: PAD ; R600-NEXT: ALU clause starting at 4: ; R600-NEXT: RECIPSQRT_IEEE * T0.X, KC0[2].W, ; R600-NEXT: RECIPSQRT_IEEE * T0.Y, KC0[3].X, ; R600-NEXT: RECIP_IEEE * T0.Y, PS, ; R600-NEXT: LSHR T1.X, KC0[2].Y, literal.x, ; R600-NEXT: RECIP_IEEE * T0.X, T0.X, ; R600-NEXT: 2(2.802597e-45), 0(0.000000e+00) entry: %fdiv = call <2 x float> @llvm.sqrt.v2f32(<2 x float> %in) store <2 x float> %fdiv, ptr addrspace(1) %out ret void } define amdgpu_kernel void @s_sqrt_v4f32(ptr addrspace(1) %out, <4 x float> %in) { ; R600-LABEL: s_sqrt_v4f32: ; R600: ; %bb.0: ; %entry ; R600-NEXT: ALU 9, @4, KC0[CB0:0-32], KC1[] ; R600-NEXT: MEM_RAT_CACHELESS STORE_RAW T0.XYZW, T1.X, 1 ; R600-NEXT: CF_END ; R600-NEXT: PAD ; R600-NEXT: ALU clause starting at 4: ; R600-NEXT: RECIPSQRT_IEEE * T0.X, KC0[3].Y, ; R600-NEXT: RECIPSQRT_IEEE * T0.Y, KC0[3].Z, ; R600-NEXT: RECIPSQRT_IEEE * T0.Z, KC0[3].W, ; R600-NEXT: RECIPSQRT_IEEE * T0.W, KC0[4].X, ; R600-NEXT: RECIP_IEEE * T0.W, PS, ; R600-NEXT: RECIP_IEEE * T0.Z, T0.Z, ; R600-NEXT: RECIP_IEEE * T0.Y, T0.Y, ; R600-NEXT: LSHR T1.X, KC0[2].Y, literal.x, ; R600-NEXT: RECIP_IEEE * T0.X, T0.X, ; R600-NEXT: 2(2.802597e-45), 0(0.000000e+00) entry: %fdiv = call <4 x float> @llvm.sqrt.v4f32(<4 x float> %in) store <4 x float> %fdiv, ptr addrspace(1) %out ret void } define amdgpu_kernel void @elim_redun_check_neg0(ptr addrspace(1) %out, float %in) { ; R600-LABEL: elim_redun_check_neg0: ; R600: ; %bb.0: ; %entry ; R600-NEXT: ALU 3, @4, KC0[CB0:0-32], KC1[] ; R600-NEXT: MEM_RAT_CACHELESS STORE_RAW T0.X, T1.X, 1 ; R600-NEXT: CF_END ; R600-NEXT: PAD ; R600-NEXT: ALU clause starting at 4: ; R600-NEXT: RECIPSQRT_IEEE * T0.X, KC0[2].Z, ; R600-NEXT: LSHR T1.X, KC0[2].Y, literal.x, ; R600-NEXT: RECIP_IEEE * T0.X, PS, ; R600-NEXT: 2(2.802597e-45), 0(0.000000e+00) entry: %sqrt = call float @llvm.sqrt.f32(float %in) %cmp = fcmp olt float %in, -0.000000e+00 %res = select i1 %cmp, float 0x7FF8000000000000, float %sqrt store float %res, ptr addrspace(1) %out ret void } define amdgpu_kernel void @elim_redun_check_pos0(ptr addrspace(1) %out, float %in) { ; R600-LABEL: elim_redun_check_pos0: ; R600: ; %bb.0: ; %entry ; R600-NEXT: ALU 3, @4, KC0[CB0:0-32], KC1[] ; R600-NEXT: MEM_RAT_CACHELESS STORE_RAW T0.X, T1.X, 1 ; R600-NEXT: CF_END ; R600-NEXT: PAD ; R600-NEXT: ALU clause starting at 4: ; R600-NEXT: RECIPSQRT_IEEE * T0.X, KC0[2].Z, ; R600-NEXT: LSHR T1.X, KC0[2].Y, literal.x, ; R600-NEXT: RECIP_IEEE * T0.X, PS, ; R600-NEXT: 2(2.802597e-45), 0(0.000000e+00) entry: %sqrt = call float @llvm.sqrt.f32(float %in) %cmp = fcmp olt float %in, 0.000000e+00 %res = select i1 %cmp, float 0x7FF8000000000000, float %sqrt store float %res, ptr addrspace(1) %out ret void } define amdgpu_kernel void @elim_redun_check_ult(ptr addrspace(1) %out, float %in) { ; R600-LABEL: elim_redun_check_ult: ; R600: ; %bb.0: ; %entry ; R600-NEXT: ALU 3, @4, KC0[CB0:0-32], KC1[] ; R600-NEXT: MEM_RAT_CACHELESS STORE_RAW T0.X, T1.X, 1 ; R600-NEXT: CF_END ; R600-NEXT: PAD ; R600-NEXT: ALU clause starting at 4: ; R600-NEXT: RECIPSQRT_IEEE * T0.X, KC0[2].Z, ; R600-NEXT: LSHR T1.X, KC0[2].Y, literal.x, ; R600-NEXT: RECIP_IEEE * T0.X, PS, ; R600-NEXT: 2(2.802597e-45), 0(0.000000e+00) entry: %sqrt = call float @llvm.sqrt.f32(float %in) %cmp = fcmp ult float %in, -0.000000e+00 %res = select i1 %cmp, float 0x7FF8000000000000, float %sqrt store float %res, ptr addrspace(1) %out ret void } define amdgpu_kernel void @elim_redun_check_v2(ptr addrspace(1) %out, <2 x float> %in) { ; R600-LABEL: elim_redun_check_v2: ; R600: ; %bb.0: ; %entry ; R600-NEXT: ALU 5, @4, KC0[CB0:0-32], KC1[] ; R600-NEXT: MEM_RAT_CACHELESS STORE_RAW T0.XY, T1.X, 1 ; R600-NEXT: CF_END ; R600-NEXT: PAD ; R600-NEXT: ALU clause starting at 4: ; R600-NEXT: RECIPSQRT_IEEE * T0.X, KC0[2].W, ; R600-NEXT: RECIPSQRT_IEEE * T0.Y, KC0[3].X, ; R600-NEXT: RECIP_IEEE * T0.Y, PS, ; R600-NEXT: LSHR T1.X, KC0[2].Y, literal.x, ; R600-NEXT: RECIP_IEEE * T0.X, T0.X, ; R600-NEXT: 2(2.802597e-45), 0(0.000000e+00) entry: %sqrt = call <2 x float> @llvm.sqrt.v2f32(<2 x float> %in) %cmp = fcmp olt <2 x float> %in, %res = select <2 x i1> %cmp, <2 x float> , <2 x float> %sqrt store <2 x float> %res, ptr addrspace(1) %out ret void } define amdgpu_kernel void @elim_redun_check_v2_ult(ptr addrspace(1) %out, <2 x float> %in) { ; R600-LABEL: elim_redun_check_v2_ult: ; R600: ; %bb.0: ; %entry ; R600-NEXT: ALU 5, @4, KC0[CB0:0-32], KC1[] ; R600-NEXT: MEM_RAT_CACHELESS STORE_RAW T0.XY, T1.X, 1 ; R600-NEXT: CF_END ; R600-NEXT: PAD ; R600-NEXT: ALU clause starting at 4: ; R600-NEXT: RECIPSQRT_IEEE * T0.X, KC0[2].W, ; R600-NEXT: RECIPSQRT_IEEE * T0.Y, KC0[3].X, ; R600-NEXT: RECIP_IEEE * T0.Y, PS, ; R600-NEXT: LSHR T1.X, KC0[2].Y, literal.x, ; R600-NEXT: RECIP_IEEE * T0.X, T0.X, ; R600-NEXT: 2(2.802597e-45), 0(0.000000e+00) entry: %sqrt = call <2 x float> @llvm.sqrt.v2f32(<2 x float> %in) %cmp = fcmp ult <2 x float> %in, %res = select <2 x i1> %cmp, <2 x float> , <2 x float> %sqrt store <2 x float> %res, ptr addrspace(1) %out ret void } define amdgpu_kernel void @recip_sqrt(ptr addrspace(1) %out, float %src) nounwind { ; R600-LABEL: recip_sqrt: ; R600: ; %bb.0: ; R600-NEXT: ALU 2, @4, KC0[CB0:0-32], KC1[] ; R600-NEXT: MEM_RAT_CACHELESS STORE_RAW T1.X, T0.X, 1 ; R600-NEXT: CF_END ; R600-NEXT: PAD ; R600-NEXT: ALU clause starting at 4: ; R600-NEXT: LSHR T0.X, KC0[2].Y, literal.x, ; R600-NEXT: RECIPSQRT_IEEE * T1.X, KC0[2].Z, ; R600-NEXT: 2(2.802597e-45), 0(0.000000e+00) %sqrt = call float @llvm.sqrt.f32(float %src) %recipsqrt = fdiv fast float 1.0, %sqrt store float %recipsqrt, ptr addrspace(1) %out, align 4 ret void } declare float @llvm.sqrt.f32(float %in) #0 declare <2 x float> @llvm.sqrt.v2f32(<2 x float> %in) #0 declare <4 x float> @llvm.sqrt.v4f32(<4 x float> %in) #0 attributes #0 = { nounwind readnone } attributes #1 = { nounwind "unsafe-fp-math"="true" }